Glaze capable of inducing to generate negative ions, ceramic tile and ceramic tile preparation process

A preparation process and negative ion technology, which is applied in the field of architectural ceramics, can solve the problems that cannot be applied and affect the color effect of the brick surface, etc., and achieve the effect of energetic, simple and easy-to-control preparation process steps, and promoting blood circulation

Active Publication Date: 2018-10-26
FOSHAN DONGPENG CERAMIC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The negative ion tiles produced above are made of tourmaline, which has limited application and cannot be applied to the bricks of the inkjet infil

Method used

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  • Glaze capable of inducing to generate negative ions, ceramic tile and ceramic tile preparation process
  • Glaze capable of inducing to generate negative ions, ceramic tile and ceramic tile preparation process
  • Glaze capable of inducing to generate negative ions, ceramic tile and ceramic tile preparation process

Examples

Experimental program
Comparison scheme
Effect test

Example Embodiment

[0044] A preparation process of ceramic tile capable of inducing negative ions includes the following steps:

[0045] Preparation of the base glaze slurry: mix the raw materials of the base glaze into a ball mill according to the ratio and perform wet ball milling to obtain the base glaze slurry;

[0046] Preparation of surface glaze slurry: mix the raw materials of the surface glaze into a ball mill according to the ratio and perform wet ball milling to obtain the surface glaze slurry.

[0047] Preparing bricks: use existing raw materials to make bricks;

[0048] Glazing: Apply the base glaze slurry on the surface of the brick, and then apply the top glaze slurry on the base glaze slurry;

[0049] It is fired into the kiln, and the firing temperature is 1080~1200℃.

[0050] The conventional firing temperature is adopted, and the firing can be completed by adopting the existing firing temperature control, which is easier to control the process. The preparation process steps of the induc...

Example Embodiment

[0062] Example 1

[0063] A kind of glaze that can induce negative ions, including base glaze and top glaze. The raw material formula by mass percentage is shown in the following table:

[0064]

[0065] The firing temperature of the base glaze and the top glaze is 1080~1100℃.

[0066] The ceramic tile with the above-mentioned negative ion-inducing glaze includes a body, a base glaze layer and a top glaze layer arranged in sequence from bottom to top, the bottom glaze layer is formed by the bottom glaze, and the top glaze layer is formed by the top glaze. The surface glaze layer is provided with a decorative layer by means of inkjet penetration process, inkjet printing, roller printing and / or screen printing.

[0067] The preparation process of the above-mentioned inducible negative ion ceramic tile includes the following steps:

[0068] Preparation of base glaze slurry: mix the raw materials of the base glaze into a ball mill according to the ratio and perform wet ball milling to obta...

Example Embodiment

[0074] Example 2

[0075] The preparation process of the anion inducible glaze, the above-mentioned anion inducible glaze and the preparation process of the anion inducible ceramic tile of this embodiment is basically the same as that of Example 1, except that it can induce anion glaze The formula of raw materials in mass percentage is shown in the following table:

[0076]

[0077] The firing temperature of the glaze that can induce negative ions is 1080~1200℃. The firing temperature of tiles that can induce negative ions is 1080~1200℃.

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PUM

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Abstract

The invention discloses a glaze capable of inducing to generate negative ions. The glaze capable of inducing to generate the negative ions comprises ground glaze and cover glaze, the ground glaze comprises the following components in percentages by mass: 8-9% of sodium pyroxene, 6-7% of fluorite, 3-4% of barite and the balance of basic ground glaze; and the cover glaze comprises the following components in percentages by mass: 0.5-1% of titanium ores, 8-13% of alpha-Al2O3, 10-15% of titanium dioxide and the balance of basic cover glaze. The invention further discloses a ceramic tile with the glaze capable of inducing to generate negative ions and a preparation process of the ceramic tile. The sodium pyroxene, the fluorite and the barite are added on the ground glaze to trigger alpha-Al2O3of the cover glaze and titanium oxide in the titanium dioxide to generate an electric field on a tile surface, and substances such as water in air are ionized to generate the negative ions. The groundglaze does not have materials which affect color development of a color aid such as tourmaline, color development of ceramic ink is not affected, and the glaze can be applied to a ceramic tile by aninkjet penetrating technology.

Description

technical field [0001] The invention relates to the technical field of architectural ceramics, in particular to a glaze capable of inducing negative ions, ceramic tiles and a preparation method for ceramic tiles. Background technique [0002] With the development of industry, the air pollution is becoming more and more serious, and the air contains various substances harmful to the human body, so the quality of the air has attracted more and more attention from the people. As well as the gradual improvement of people's living standards, the requirements for the quality of the air in the living environment are getting higher and higher. Therefore, the environmental protection and functional health of building materials have been paid more and more attention by people. In recent years, negative ion interior decoration materials and products have emerged at home and abroad, such as negative ion coatings, negative ion panels, and negative ion tiles. This kind of material produ...

Claims

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Application Information

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IPC IPC(8): C03C8/00C04B41/89B28B11/00B28B11/04
CPCB28B11/001B28B11/044C03C8/00C04B41/52C04B41/89C04B41/504C04B41/4535C04B41/5022
Inventor 祁明钟保民
Owner FOSHAN DONGPENG CERAMIC
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